String-localized QFT allows to explain Standard Model interactions in an autonomous way, committed to quantum principles rather than a “gauge principle,” thus avoiding an indefinite state space and compensating ghosts.… Click to show full abstract
String-localized QFT allows to explain Standard Model interactions in an autonomous way, committed to quantum principles rather than a “gauge principle,” thus avoiding an indefinite state space and compensating ghosts. The resulting perturbative scattering matrix is known (at tree-level and without spacetime cutoff) to be insensitive to the non-locality of the auxiliary “string-localized free fields” used in the construction. For the examples of Yang–Mills and QCD, we prove that it is equivalent to the perturbative S-matrix of gauge theory, restricted to physical particle states. The role of classical gauge invariance is revealed along the way. The main tool are “dressed fields,” that are intermediate between free fields and interacting fields, and for which we give explicit formulas at all orders. The renormalization of loops, as well as non-perturbative issues are not addressed, but we hint at the possibility, enabled by our approach, that qualitative traces of confinement may be visible already at the level of the dressed fields.
               
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